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What is the difference of the rational expressions blow 4x/9 - 2x/9

Answers

Answer 1
Answer:

Step-by-step explanation:

answer in the photo above look

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Is this one correct?​

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Answer:

do you expect me to flip sideways just to help you cheat on ur homework

Step-by-step explanation:
It’s f .................

I would appreciate if you solved number 2

Answers

Answer:

the answer for #2 is 6

Step-by-step explanation:

Formula for a triangle:

Area = Base x Height ÷ 2

How many rational numbers are there between - 5 and - 4?​

Answers

Answer:

There are infinite rational numbers between any two numbers

PLS MARK ME AS THE BRAINLIEST

An ordinary 52-card deck is thoroughly shuffled. You are dealt four cards. (a) What is the probability that all four cards are sevens. (b) What is the probability that at least one of the cards is a seven. (c) What is the probability that none of them are seven. (d) What is the probability that two out the four cards is a seven

Answers

Answer:

a) The probability of getting a seven is 4/52

b) At least one of the cards is a seven=0.2813

c) The probability that none of them are seven=  0.7187

d) The probability that two out the four cards is a seven= 0.043

Step-by-step explanation:

A deck contains 52 cards containing 4 sets of 13 cards . Each set has a seven card in it. Thus there are 4 seven cards in a deck of 52 cards.

a) The probability of getting a seven is 4/52=0.0769

b) At least one of the cards is a seven=

1- P(no seven)

= 1- 4C0 * 48C4/ 52C4= 1- 0.7187= 0.2813

c) The probability that none of them are seven=4C0 * 48C4/ 52C4=  0.7187

d) The probability that two out the four cards is a seven= First card is seven * second Card is seven * two cards are not seven

= 4/52* 3/51*48/50= 0.0769*0.0588*0.96= 0.043

Final answer:

The probability of drawing four sevens, at least one seven, no sevens, and exactly two sevens from a shuffled deck of cards is explained step-by-step.

Explanation:

(a) The deck contains 52 cards, out of which there are 4 sevens. So, the probability of drawing a seven on the first card is 4/52. After drawing the first seven, there are 51 cards left in the deck, including 3 sevens. So, the probability of drawing a seven on the second card is 3/51. Continuing this process, the probability of getting four sevens in a row is (4/52) * (3/51) * (2/50) * (1/49).

(b) The probability of at least one seven can be calculated by finding the probability of the complement event (no seven). The probability of no seven on the first card is 48/52. After drawing the first card, there are 51 cards left, so the probability of no seven on the second card is 47/51. Continuing this process, the probability of no seven in four cards is (48/52) * (47/51) * (46/50) * (45/49). Subtracting this probability from 1 gives us the probability of at least one seven.

(c) The probability of none of the four cards being a seven can be calculated similarly to part (b). The probability of no seven on the first card is 48/52. After drawing the first card, there are 51 cards left, so the probability of no seven on the second card is 47/51. Continuing this process, the probability of no seven in four cards is (48/52) * (47/51) * (46/50) * (45/49).

(d) To find the probability that exactly two of the four cards are sevens, we need to consider two cases: (1) the first two cards are sevens and the last two are not, and (2) the first two cards are not sevens and the last two are. The probability of the first case is (4/52) * (3/51) * (48/50) * (47/49), and the probability of the second case is (48/52) * (47/51) * (4/50) * (3/49). Adding these probabilities gives the total probability.

Learn more about Probability here:

brainly.com/question/22962752

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The function ​f(x,y,z)equals2 x plus z squared has an absolute maximum value and absolute minimum value subject to the constraint x squared plus 2 y squared plus 3 z squaredequals16. Use Lagrange multipliers to find these values.

Answers

Answer:

Absolute maxima an minma both occured at (25)/(3).

Step-by-step explanation:

Given function is,

f(x,y,z)=2x+z^2\hfill (1)

subject to,

x^2+2y^2+3z^2=16\hfill (2)

Let g(x,y,z)=x^2+2y^2=3z^2-16

To find absolute maxima and absolute minima using Lagranges multipliers method consider \lambda as the multipliers such that,

\nabla f=\lambda \nabla g

\leftrightarrow (2, 0 ,2z )=\lambda (2x, 4y, 6z)

on compairing both side we get,

2z=6\lambda z\implies \lambda=(1)/(3)

4\labda y=0\implies y=0

2=2\lambda x\implies x=(1)/(\lambda)=3

From (2),

x^2+2y^2+3z^2=16

\implies 9+0+3z^2=16

\implies z=\pm\sqrt{(7)/(3)}

Absolute maxima, at x=3, y=0,z= \sqrt{(7)/(3)} is,

|f(x,y,z)|_(max)=(2x+z^2)_(3,0,\sqrt{(7)/(3)})=(2*3)+(7)/(3)=(25)/(3)

Absolute minima, at x=3, y=0, z= -\sqrt{(7)/(3)} is,

|f(x,y,z)|_(max)=(2x+z^2)_(3,0,-\sqrt{(7)/(3)})=(2*3)+(7)/(3)=(25)/(3)

Hence the result.

Emily has 27 Barbie dolls. She put equal number of dolls in each of 5 boxes. How many dolls are left over?

Answers

Answer:

2 barbies are left over

Step-by-step explanation:

5(5)=25

27-25=2

Leaving 2 barbies.
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